From: Michael Traxler Date: Fri, 26 Apr 2013 20:03:41 +0000 (+0200) Subject: added <100ps X-Git-Url: https://jspc29.x-matter.uni-frankfurt.de/git/?a=commitdiff_plain;h=21b7924d8b06847c9c4b4a0f6867304ca3bd5f8c;p=conferences.git added <100ps --- diff --git a/2013-twepp-michel-network/abstract.txt b/2013-twepp-michel-network/abstract.txt index 96f5ff4..3248bdc 100644 --- a/2013-twepp-michel-network/abstract.txt +++ b/2013-twepp-michel-network/abstract.txt @@ -1,7 +1,9 @@ -The design concepts of modern data acquisition systems share many similar features. Among them are -high bandwidth data transport, synchronization of front-ends and slow-control. This talk focuses -on the achieved synergy in data acquisition networks between several experiments of the FAIR project -and beyond. The TrbNet protocol developed for the upgrade of the HADES DAQ system is now also -employed in various prototype set-ups for detectors of the CBM and PANDA experiments. Additionally, -a modified implementation of the network is foreseen to be used for time synchronization and fast -control system for the full PANDA detector setup. +The design concepts of modern data acquisition systems share many similar +features. Among them are high bandwidth data transport, synchronization of +front-ends and slow-control. This talk focuses on the achieved synergy in data +acquisition networks between several experiments of the FAIR project and +beyond. The TrbNet protocol developed for the upgrade of the HADES DAQ system +is now also employed in various prototype set-ups for detectors of the CBM and +PANDA experiments. Additionally, a modified implementation of the network is +foreseen to be used for time synchronization (<100ps RMS) and fast control +system for the full PANDA detector setup.